Rheology of Green Plasticizer/Poly(vinyl chloride
Knowledge of the rheology of PVC-plasticizer blends at elevated temperatures is crucial for understanding and predicting the behavior of the compounds during processing. In this work, the time
Processes | Free Full-Text | Rheology of Green Plasticizer
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Thesis | Rheology of 'green' plasticizers: application
The viscoelastic master curves of the elastic and viscous moduli, G' and G", respectively, for the ‘green’ plasticizers compared favourably to those of the commercial plasticizers, and therefore it was concluded that the ‘green’ plasticizers exhibited similar rheological behaviour to the commercial plasticizers, as seen by the
Title: A Review on Plasticizers and Eco-Friendly
Plasticizers are chemical additives added into polymers to influence desirable mechanical properties such as processability and ductility. These properties are a result of the association of...
Rheology of ‘Green’ Plasticizers: Application of Time
respectively, for the ‘green’ plasticizers compared favourably to those of the commercial plasticizers, and therefore it was concluded that the ‘green’ plasticizers exhibited similar rheological behaviour to the commercial plasticizers, as seen by the comparable shape of their master curves.
- Are green bio-based plasticizers effective?
- Therefore, the green bio-based plasticizers with excellent migration resistance and cold resistance are provided with broad application prospects. One of the feasible ways to solve the above problems is to take advantage of natural resources as ingredient to develop renewable non-toxic plasticizers.
- What are green nanocomposites made of?
- “Green” nanocomposites have been successfully fabricated from cellulose acetate (CA) powder, eco-friendly triethyl citrate (TEC) plasticizer and organically modified clay. The effect of the amount ... “Green” Nanocomposites from Cellulose Acetate Bioplastic and Clay: Effect of Eco-Friendly Triethyl Citrate Plasticizer | Biomacromolecules ACS
- Can glycerol be used as a plasticizer for biodegradable films?
- (Elsevier Ltd.) Biodegradable films were produced from blends contained a high amt. of thermoplastic starch (TPS) and poly(lactic acid) (PLA) plasticized with different adipate or citrate esters. It was not possible to obtain pellets for the prodn. of films using only glycerol as a plasticizer.
- Which plasticizer is used to improve the mechanical properties of PLA?
- (32,34,37)Specifically, to improve the mechanical properties of the PLA, TEC, a nontoxic, eco-friendly, and natural plasticizer, has been widely used. (37−42) In recent years, natural cellulosic fibers have been combined with polymers for the production of low-cost and high-performance materials.
- Does plasticizer affect morphology of nanocomposites?
- The effect of the amt. of plasticizer varying from 15-40% on the performance of the nanocomposites was evaluated. The morphologies of these nanocomposites were evaluated through x-ray diffraction, at. force microscopy (AFM), and TEM studies. The mech. properties of nanocomposites are correlated with the x-ray diffraction and TEM observations.
- Are there any cold-resistant bio-based plasticizers?
- There is no report about cold-resistant bio-based plasticizers, and this is the first one. Strong acid cation exchange resin is not only a catalyst, but also a ring opener for the following reaction. The PVC plasticized by these cold-resistant bio-based plasticizers basically does not migrate in various extreme environments.
